In this paper, we examined the effect of gate voltage, bias voltage, contact geometries and the different bond lengths on the electrical transport properties in a nanostructure consisting of C60 molecule attached to two semi-infinite leads made of single wall carbon nanotubes in the coherent regime. Our calculation was based on the Green’s function method within nearest-neighbour tight-binding approximation. After the calculation was of transmission, the electrical current was obtained by the Landauer-Buttiker formula. Next, the effect of the mentioned factors was investigated in the nanostructure. The application of the present results may be useful in designing devices based on molecular electronics in nanoscale.
Shokri,A. and Nikzad,S. (2019). The effect of gate voltage on the electrical transport properties in the contacts of C60 to carbon nanotube leads. Iranian Journal of Physics Research, 12(1), 51-57.
MLA
Shokri,A. , and Nikzad,S. . "The effect of gate voltage on the electrical transport properties in the contacts of C60 to carbon nanotube leads", Iranian Journal of Physics Research, 12, 1, 2019, 51-57.
HARVARD
Shokri A., Nikzad S. (2019). 'The effect of gate voltage on the electrical transport properties in the contacts of C60 to carbon nanotube leads', Iranian Journal of Physics Research, 12(1), pp. 51-57.
CHICAGO
A. Shokri and S. Nikzad, "The effect of gate voltage on the electrical transport properties in the contacts of C60 to carbon nanotube leads," Iranian Journal of Physics Research, 12 1 (2019): 51-57,
VANCOUVER
Shokri A., Nikzad S. The effect of gate voltage on the electrical transport properties in the contacts of C60 to carbon nanotube leads. Dear user; Recently we have changed our software to Sinaweb. If you had already registered with the old site, you may use the same USERNAME but you need to change your password. To do so at the first use, please choose, 2019; 12(1): 51-57.
